Display taxa abundances as a stacked bar graph.
taxa_stacked(
biom,
rank = -1,
taxa = 6,
colors = TRUE,
patterns = FALSE,
label.by = NULL,
order.by = NULL,
facet.by = NULL,
dist = "euclidean",
clust = "complete",
other = TRUE,
unc = "singly",
lineage = FALSE,
xlab.angle = 90,
...
)A ggplot2 plot. The computed data points and ggplot
command are available as $data and $code,
respectively.
An rbiom object, such as from as_rbiom().
Any value accepted by as_rbiom() can also be given here.
What rank(s) of taxa to display. E.g. "Phylum",
"Genus", ".otu", etc. An integer vector can also be
given, where 1 is the highest rank, 2 is the second
highest, -1 is the lowest rank, -2 is the second
lowest, and 0 is the OTU "rank". Run biom$ranks to
see all options for a given rbiom object. Default: -1.
Which taxa to display. An integer value will show the top n
most abundant taxa. A value 0 <= n < 1 will show any taxa with that
mean abundance or greater (e.g. 0.1 implies >= 10%). A
character vector of taxa names will show only those named taxa.
Default: 6.
A character vector of colors or patterns to use in
the graph. A named character vector can be used to map taxon names to
specific colors or patterns. Set to TRUE to auto-select colors
or patterns, or to FALSE to disable per-taxa colors or patterns.
Default: colors=TRUE, patterns=FALSE.
What metadata column to use for labeling and/or
sorting the samples across the x-axis. Set label.by='.sample'
to display sample names. When order.by=NULL, samples are
arranged based on dist and clust, below.
Default: label.by=NULL, order.by=NULL.
Dataset field(s) to use for faceting. Must be categorical.
Default: NULL
Distance (stats::dist()) and clustering
(stats::hclust()) methods to use for automatically arranging
samples along the x-axis to put samples with similar composition near
one another. Default: dist="euclidean", clust="complete".
Sum all non-itemized taxa into an "Other" taxa. When
FALSE, only returns taxa matched by the taxa
argument. Specifying TRUE adds "Other" to the returned set.
A string can also be given to imply TRUE, but with that
value as the name to use instead of "Other".
Default: FALSE
How to handle unclassified, uncultured, and similarly ambiguous taxa names. Options are:
"singly" - Replaces them with the OTU name.
"grouped" - Replaces them with a higher rank's name.
"drop" - Excludes them from the result.
"asis" - To not check/modify any taxa names.
Abbreviations are allowed. Default: "singly"
Include all ranks in the name of the taxa. For instance,
setting to TRUE will produce
Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales.
Otherwise the taxa name will simply be Coriobacteriales. You
want to set this to TRUE when unc = "asis" and you have taxa
names (such as Incertae_Sedis) that map to multiple higher
level ranks. Default: FALSE
Angle of the labels at the bottom of the plot.
Options are "auto", '0', '30', and '90'.
Default: "auto".
Parameters for underlying functions. Prefixing parameter names with a layer name ensures that a particular parameter is passed to, and only to, that layer.
Other taxa_abundance:
sample_sums(),
taxa_boxplot(),
taxa_clusters(),
taxa_corrplot(),
taxa_heatmap(),
taxa_stats(),
taxa_sums(),
taxa_table()
Other visualization:
adiv_boxplot(),
adiv_corrplot(),
bdiv_boxplot(),
bdiv_corrplot(),
bdiv_heatmap(),
bdiv_ord_plot(),
plot_heatmap(),
rare_corrplot(),
rare_multiplot(),
rare_stacked(),
stats_boxplot(),
stats_corrplot(),
taxa_boxplot(),
taxa_corrplot(),
taxa_heatmap()
library(rbiom)
biom <- rarefy(hmp50)
taxa_stacked(biom, rank="Phylum")
taxa_stacked(biom, rank = "genus", facet.by = "body site")
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